Augmented reality asset locator

ABSTRACT

A method includes receiving a signal from a device to be located, the signal identifying the device, determining location information from the received signal, creating a graphic representative of the location of the device, and providing an augmented reality view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.

CROSS-REFERENCE TO PRIORITY APPLICATIONS

This U.S. nonprovisional application claims the benefit of U.S. Patent Application Ser. No. 62/092,156 for an Augmented Reality Asset Locator (filed Dec. 15, 2014), which is hereby incorporated by reference in its entirety.

FIELD OF THE INVENTION

The present invention relates to an asset locator and, more particularly, to an augmented reality asset locator.

BACKGROUND

In many industries, it is common for a worker to be assigned specific piece of hardware/device that only they are authorized to use. A lot of the time, these devices look the same and it can be difficult to determine which device belongs to which employee, especially when many of the same devices are lying on the same table or are in the same charging station. Sometimes labels with the employees name are put on the device, or a serial number may be used to identify a device. This is not ideal, as it requires the user to be close to the device in order to determine if it is their assigned piece of equipment.

SUMMARY

A method includes receiving a signal from a device to be located, the signal identifying the device, determining location information from the received signal, creating a graphic representative of the location of the device, and providing an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.

A machine readable storage device having instructions for execution by a processor of the machine to perform receiving a signal from a device to be located, the signal identifying the device, determining location information from the received signal, creating a graphic representative of the location of the device, and providing an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.

A device including a processor, a display coupled to the processor, and a memory device coupled to the processor. The memory device includes a program for execution by the processor to receive a signal from a device to be located, the signal identifying the device, determine location information from the received signal, create a graphic representative of the location of the device, and provide an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device. The foregoing illustrative summary, as well as other exemplary objectives and/or advantages of the invention, and the manner in which the same are accomplished, are further explained within the following detailed description and its accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an augmented reality system to assist in the location of devices according to an example embodiment.

FIG. 2 is a block diagram of an augmented reality view of an area having a device to be located according to an example embodiment.

FIG. 3 is a block diagram view of an augmented reality graphic used to aid in locating a device according to an example embodiment.

FIG. 4 is a flowchart illustrating a method of providing an augmented reality view to aid in locating a device according to an example embodiment.

FIG. 5 is a block schematic diagram of a computer system to implement various embodiments.

DETAILED DESCRIPTION

In the following description, reference is made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration specific embodiments, which may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention, and it is to be understood that other embodiments may be utilized and that structural, logical and electrical changes may be made without departing from the scope of the present invention. The following description of example embodiments is, therefore, not to be taken in a limited sense, and the scope of the present invention is defined by the appended claims.

The functions or algorithms described herein may be implemented in software or a combination of software and human implemented procedures in one embodiment. The software may consist of computer executable instructions stored on computer readable media or computer readable storage device such as one or more memory or other type of hardware based storage devices, either local or networked. Further, such functions correspond to modules, which are software, hardware, firmware or any combination thereof. Multiple functions may be performed in one or more modules as desired, and the embodiments described are merely examples. The software may be executed on a digital signal processor, ASIC, microprocessor, or other type of processor operating on a computer system, such as a personal computer, server or other computer system.

An augmented reality (AR) system 100 illustrated in block diagram form in FIG. 1 provides a way for a person to quickly identify which device belongs to them. Such an AR system 100 may be a Smartphone, tablet or head mounted wearable. A display 110 is coupled to a processor 115 that runs one or more applications stored on a memory device 120. A transceiver 125 is used to wirelessly communicate with a target device 130 to be located.

The target device 130 transmits a signal that identifies itself, and may also include position information. Sensors 135, such as inertial sensors (gyroscope, magnetometer) provide system 100 movement information to help identify the position of the system 100. A camera 140 may be used to capture images of an area where system 100 is located. The images may be displayed on the display 110, along with an indicator 145 to help identify where the target device 130 is located in the area. The indicator is used to augment the reality provided by the camera and displayed on the display 110, and may be moving or provided with some other attribute, such as blinking or highlighting, to provide a user with an observable indication of the location of the target device 130.

In one embodiment, the AR system runs special AR software to view their local environment as shown in FIG. 2, provided by the camera 140. The system identifies the target device in the scene using an image or object recognition algorithm as in known in the art. FIG. 2 illustrates an area displayed on display 110, and shows the target device 130 residing on a coffee table in a room. A larger arrow 210 serving as an indicator is provided to point to the target device 130 in a manner that draws attention to the indicator and the target device 130. The arrow 210 may move up and down to draw even more attention to the indicator of the location of the target device 130.

The target device 130 to be located transmits a signal that uniquely identifies itself. In one embodiment, this signal comprises a low energy RF signal, and the position is an indoor positioning signal. One example of a low energy RF signal having low cost and low power usage is a Bluetooth Low Energy (BLE) beacon in one embodiment that identifies the device serial number, MAC address, or other form of identifier, such as global unique identifier (GUID). In another embodiment, the target device transmits the uniquely identifying signal using Wi-Fi technology. As the person scans their environment for their missing device, graphics may be overlaid on the physical world, indicating where their device is located.

If the missing device solely used BLE to identify itself, a graphical representation, circle 300, may be shown to the person as illustrated in FIG. 3, as BLE alone can only indicate approximate distance corresponding to the radius of circle 300 from the user. The circle 300 is displayed around the person in which the device may be found. The larger the circle radius, the further away the device would be. The AR system 100 may also include location sensing ability, such as a GPS module to identify its location. The sensors 135 may be used to update the location of the system 100 and adjust the display accordingly. In a further embodiment, the missing device/equipment may have a way to locate itself in its environment via BLE indoor positioning, GPS or other location technology. In this case, the BLE beacon would not only indicate the device identifier (serial number, MAC address, etc.) but would also indicate the location of the device. In this embodiment, when the operator scanned the environment with their AR capable device, they would see a floating arrow or other symbol, such as a bull's-eye, over the device they are looking for. Thus, the location of the AR system 100 may be determined via BLE thereby allowing the AR system to determine and display circle 300 and the location of the target device that is in communication with the AR system.

The AR based asset location system 100 may provide an advantage over traditional methods of asset location, such as two-dimensional maps, because the system allows a person to search in a more natural fashion. In various embodiments, the AR based asset location system may comprise a programmed smart phone, tablet, or a head mounted wearable capable of binocular Augmented Reality (AR) such as an Epson Moverio™.

The target device 130 being searched for may transmit a data packet via BLE on a regular interval. The AR system 100 may use BLE to listen for this data packet. Once a BLE signal is read, the AR system will examine the device hardware identifier to determine if it is the device being searched for. If so, the current location of the AR system may be used to calculate the distance to the target device. The sensors 135 may also be used to determine the system's current orientation. This will inform the person which direction it is facing and how it is rotated. When the device orientation is in line with the target device, a bouncing arrow may be rendered above the target device so that the user can visible see where it is located. The size of the arrow may change depending on the distance between the AR system and the target device. This will help the user understand how far they are from the target device. The same effect could be used for finding a device that cannot appreciate its current location. The BLE signal strength can be used to estimate the radial distance the target device is from the AR device. This radial search area would then be displayed to the operator.

In another embodiment, in lieu of or in addition to direct communication between the target device 130 and the AR system 100, the target device may communicate via BLE or Wi-Fi, such as on a regular interval, to a server 310, including a beacon, to transmit location data. The AR system may also communicate with the server to receive the target device location data so that the AR system may determine and display the location of the target device in relation to the AR system using the AR reality system view. For the AR reality system whose current location is available, the view may show the target device and its location within circle 300 as illustrated in FIG. 3. This embodiment is particularly useful when the target device is outside the BLE range of the AR system. In another embodiment, where a map of the location/building is available to the AR system, the system can guide the user to the device. The AR system estimates the best route from the current location of the AR system to the target device and displays pointers or other directional indicators on the AR display to show the path. For example, the AR display can overlay arrows on the floor showing the direction to walk. When the user with the AR system starts moving towards the target, the system updates its current location and provides navigational guidance through AR display. In yet another embodiment, when the target device is located outside the range of direct communication through BLE with the AR system, the target device and/or the AR system may communicate with a surveillance or security system 320 (i.e., surveillance system) such as through Wi-Fi, so that the AR system may receive images of one or more areas of a building and, more particularly, an area in which the target device is located. For example, the target device may transmit data, including location data, to the surveillance system to enable the surveillance system to capture an image of the target device. The surveillance system may then transmit the image of the target device, including an image of the area in which the target device is located, to the AR system. The AR system may use the image or images to identify, highlight, and/or display the location of the target device using the AR reality system view. For example, the AR system 100 may be programmed to recognize images of one or more areas of a building and/or objects in the images received from the surveillance system and provide the user with an AR reality system view of at least one of the areas along with the location of the target device in the area. Additionally, upon receiving one or more images from the surveillance system, the AR system program may enable the AR system to recognize objects typically present in an area and to identify an object not typically present in the area that may correspond to the targeted object to assist in locating the target device. It should be understood that the AR system 100 may communicate with one or more of the device to be located 130, the server 310, and the surveillance system 320. The AR system may be programmed to locate and/or identify more than one target device simultaneously.

FIG. 4 is a flowchart illustrating a method 400 of using an augmented reality system to provide a view of an area with an indication of the location of a missing target device. Method 400 includes receiving a signal from a device to be located, a server, and/or a surveillance system at 410. The signal identifies the device with some form of ID in order to determine if the device is the device being searched for. At 420, location information is determined from the received signal. In various embodiments, the location information may include location identifying coordinates encoded in the received signal, or may be a distance from the target device derived from a signal strength of the received signal, or may be an image of the device and/or its location received from a surveillance system.

At 430, a graphic representative of the location of the device is created. The graphic may be an arrow or other symbol that points to or otherwise identifies the location of the target device, or a circle having a radius corresponding to the identified distance from the target device. At 440, an augmented reality system view of an area where the device is located is created, with the graphic overlaid on the view to provide user visible location information corresponding to the device.

FIG. 5 is a block schematic diagram of a computer system 500 to implement augmented reality methods for locating devices according to example embodiments. All components need not be used in various embodiments. One example computing device in the form of a computer 500 may include a processing unit 502, memory 503, removable storage 510, and non-removable storage 512. Although the example computing device is illustrated and described as computer 500, the computing device may be in different forms in different embodiments. For example, the computing device may instead be a smartphone, a tablet, smartwatch, or other computing device including the same or similar elements as illustrated and described with regard to FIG. 5. Devices such as smartphones, tablets, and smartwatches are generally collectively referred to as mobile devices. The computing device may also include other mobile or wearable devices such as smart glasses (e.g., Google Glass®), other near-to-eye devices, and head-mounted displays. Thus, the computing device may be any device with a see through or a camera assisted device that can overlay or is capable of overlaying the AR features on the real images displayed on the output 504 (e.g., display). Further, although the various data storage elements are illustrated as part of the computer 500, the storage may also or alternatively include cloud-based storage accessible via a network, such as the Internet.

Memory 503 may include volatile memory 514 and non-volatile memory 508. Computer 500 may include—or have access to a computing environment that includes—a variety of computer-readable media, such as volatile memory 514 and non-volatile memory 508, removable storage 510 and non-removable storage 512. Computer storage includes random access memory (RAM), read only memory (ROM), erasable programmable read-only memory (EPROM) & electrically erasable programmable read-only memory (EEPROM), flash memory or other memory technologies, compact disc read-only memory (CD ROM), Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium capable of storing computer-readable instructions.

Computer 500 may include or have access to a computing environment that includes input 506, output 504, and a communication connection 516. Output 504 may include a display device, such as a touchscreen, that also may serve as an input device. The input 506 may include one or more of a touchscreen, touchpad, mouse, keyboard, camera, one or more device-specific buttons, one or more sensors integrated within or coupled via wired or wireless data connections to the computer 500, and other input devices. The computer may operate in a networked environment using a communication connection to connect to one or more remote computers, such as database servers. The remote computer may include a personal computer (PC), server, router, network PC, a peer device or other common network node, or the like. The communication connection may include a Local Area Network (LAN), a Wide Area Network (WAN), cellular, Wi-Fi, Bluetooth, or other networks.

Computer-readable instructions stored on a computer-readable medium are executable by the processing unit 502 of the computer 500. A hard drive, CD-ROM, and RAM are some examples of articles including a non-transitory computer-readable medium such as a storage device. The terms computer-readable medium and storage device do not include carrier waves. For example, a computer program 518 capable of providing a generic technique to perform access control check for data access and/or for performing an operation on one of the servers in a component object model (COM) based system may be included on a CD-ROM and loaded from the CD-ROM to a hard drive. The computer-readable instructions allow computer 500 to provide generic access controls in a COM based computer network system having multiple users and servers.

Although a few embodiments have been described in detail above, other modifications are possible. For example, the logic flows depicted in the figures do not require the particular order shown, or sequential order, to achieve desirable results. Other steps may be provided, or steps may be eliminated, from the described flows, and other components may be added to, or removed from, the described systems. Other embodiments may be within the scope of the following claims.

To supplement the present disclosure, this application incorporates entirely by reference the following commonly assigned patents, patent application publications, and patent applications:

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In the specification and/or figures, typical embodiments of the invention have been disclosed. The present invention is not limited to such exemplary embodiments. The use of the term “and/or” includes any and all combinations of one or more of the associated listed items. The figures are schematic representations and so are not necessarily drawn to scale. Unless otherwise noted, specific terms have been used in a generic and descriptive sense and not for purposes of limitation. 

1. A method comprising: receiving a signal from a device to be located, the signal identifying the device; determining location information from the received signal; creating a graphic representative of the location of the device; and providing an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.
 2. The method of claim 1 wherein the step of receiving a signal from a device to be located comprises a server receiving a signal from the device to be located and the augmented reality system receiving a signal from the server corresponding to the device.
 3. The method of claim 1 wherein the location information comprises a distance determined from received signal strength.
 4. The method of claim 3 wherein the graphic comprises a circle having a radius corresponding to the distance, and wherein a center of the circle corresponds to a position of the augmented reality system.
 5. The method of claim 1 wherein the location information comprises a position of the device provided by the received signal.
 6. The method of claim 5 wherein the graphic comprises a location indicator overlaid to identify the position of the device in the view.
 7. The method of claim 6 wherein the location indicator comprises an arrow pointing to the device in the view.
 8. The method of claim 5 wherein the signal comprises a low energy RF signal, and the position is an indoor positioning signal.
 9. The method of claim 5 wherein the signal comprises a global positioning signal.
 10. The method of claim 1 wherein the signal identifying the device includes a MAC address or serial number of the device.
 11. A method of claim 1 wherein the signal identifying the device includes an image of a device to be located.
 12. A machine-readable storage device having instructions for execution by a processor of the machine to perform a method comprising: receiving a signal from a device to be located, the signal identifying the device; determining location information from the received signal; creating a graphic representative of the location of the device; and providing an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.
 13. The machine-readable storage device of claim 12 wherein the location information comprises a distance determined from received signal strength.
 14. The machine readable storage device of claim 13 wherein the graphic comprises a circle having a radius corresponding to the distance, and wherein a center of the circle corresponds to a position of the augmented reality system.
 15. The machine-readable storage device of claim 12 wherein the location information comprises a position of the device provided by the received signal.
 16. The machine-readable storage device of claim 15 wherein the graphic comprises a location indicator overlaid to identify the position of the device in the view.
 17. The machine-readable storage device of claim 16 wherein the location indicator comprises an arrow pointing to the device in the view.
 18. The machine-readable storage device of claim 12 wherein the signal comprises a low energy RF signal, and the position is an indoor positioning signal or a global positioning signal.
 19. A device comprising: a processor; a display coupled to the processor; and a memory device coupled to the processor and having a program stored thereon for execution by the processor to: receive a signal from a device to be located, the signal identifying the device; determine location information from the received signal; create a graphic representative of the location of the device; and provide an augmented reality system view of an area where the device is located with the graphic to provide user visible location information corresponding to the device.
 20. The device of claim 19 wherein the location information comprises a distance determined from received signal strength and wherein the graphic comprises a circle having a radius corresponding to the distance, and wherein a center of the circle corresponds to a position of the augmented reality system.
 21. The device of claim 19 wherein the location information comprises a position of the device provided by the received signal and wherein the graphic comprises a location indicator overlaid to identify the position of the device in the view.
 22. The device of claim 19 wherein the location indicator comprises an arrow pointing to the device in the view, wherein the signal comprises a low energy RF signal, and the position is an indoor positioning signal or a global positioning signal. 